Major factors influencing the generation of natural gas hydrate in porous media

Autor: V.N. Khlebnikov, S.V. Antonov, A.S. Mishin, Meng Liang, I.V. Khamidullina, P.M. Zobov, N.V. Likhacheva, P.A. Gushchin
Jazyk: angličtina
Rok vydání: 2017
Předmět:
Zdroj: Natural Gas Industry B, Vol 4, Iss 6, Pp 442-448 (2017)
Druh dokumentu: article
ISSN: 2352-8540
DOI: 10.1016/j.ngib.2017.09.006
Popis: Current researches related to natural gas hydrate mainly focus on its physical and chemical properties, as well as the approaches to the production (decomposition) of hydrate. Physical modeling of the flow process in hydrate deposits is critical to the study on the exploitation or decomposition of hydrate. However, investigation of the dynamic hydrate process by virtue of porous media like sand-packed tubes which are widely used in petroleum production research is rarely reported in literature. In this paper, physical simulation of methane hydrate generation process was conducted using river sand-packed tubes in the core displacement apparatus. During the simulation, the influences of parameters such as reservoir temperature, methane pressure and reservoir model properties on the process of hydrate generation were investigated. The following results are revealed. First, the use of ice-melted water as the immobile water in the reservoir model can significantly enhance the rate of methane hydrate generation. Second, the process driving force in porous media (i.e., extents to which the experimental pressure or temperature deviating those corresponding to the hydrate phase equilibrium) plays a key role in the generation of methane hydrate. Third, the induction period of methane hydrate generation almost does not change with temperature or pressure when the methane pressure is above 1.4 folds of the hydrate phase equilibrium pressure or the laboratory temperature is lower than the phase equilibrium temperature by 3 °C or more. Fourth, the parameters such as permeability, water saturation and wettability don't have much influence on the generation of methane hydrate.
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